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Recombinant probiotics for prevention of enteric infections in piglets. Shigatoxigenic and enterotoxigenic strains of Escherichia coli cause severe diarrhoeal disease and oedema disease in piglets. The resultant morbidity and mortality is a major cause of financial loss to the pig industry both in Australia and overseas. We have conceived a highly novel approach to prevention of these diseases involving molecular mimicry of host receptors for the E. coli toxins and adhesins on the surface of a ....Recombinant probiotics for prevention of enteric infections in piglets. Shigatoxigenic and enterotoxigenic strains of Escherichia coli cause severe diarrhoeal disease and oedema disease in piglets. The resultant morbidity and mortality is a major cause of financial loss to the pig industry both in Australia and overseas. We have conceived a highly novel approach to prevention of these diseases involving molecular mimicry of host receptors for the E. coli toxins and adhesins on the surface of a harmless bacterium. Oral administration of this agent to piglets has the potential to bind free toxins in the gut and prevent colonization of the intestines by the pathogens, thereby preventing disease.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989564
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
State-of-the-art facility for human and animal virus research in the Canberra and surrounding regions. New viral diseases continue to emerge and old viruses re-emerge to pose a threat to human and animal health. To combat these, we propose a dedicated viral disease research facility. The centre will include experienced researchers, biotechnology companies and government agencies working on discovery, prevention and treatment of viral diseases. Forging strong scientific links between these organi ....State-of-the-art facility for human and animal virus research in the Canberra and surrounding regions. New viral diseases continue to emerge and old viruses re-emerge to pose a threat to human and animal health. To combat these, we propose a dedicated viral disease research facility. The centre will include experienced researchers, biotechnology companies and government agencies working on discovery, prevention and treatment of viral diseases. Forging strong scientific links between these organisations will considerably enhance the productivity of these researchers, increase their collaborative and scientific outputs and allow for training of students in the latest technologies. The facility will provide researchers with cutting-edge instrumentation for nationally and internationally important projects that would benefit human health.Read moreRead less
Evaluation of the potential of colostrum-derived anti-influenza antibody for the treatment and prevention of influenza. The project addresses a common disease problem, influenza, with a novel application of antibody technology. The technology may safely provide protection and cost effective treatment for those members of the community who are least protected by current approaches. The product can be cost-effective and readily available to enable the public to self medicate in high risk situation ....Evaluation of the potential of colostrum-derived anti-influenza antibody for the treatment and prevention of influenza. The project addresses a common disease problem, influenza, with a novel application of antibody technology. The technology may safely provide protection and cost effective treatment for those members of the community who are least protected by current approaches. The product can be cost-effective and readily available to enable the public to self medicate in high risk situations, or to be used as a public health tool in situtions to control outbreaks in those most susceptible to serious disease. The production system that enabled the creation of the technology is the advanced Australian dairy industry. Farmers with herds participating will receive a significant income benefit from, what was before, largely a waste product.Read moreRead less
Structural Characterisation of the Type IX Secretion System. The Type IX Secretion System present in diverse bacteria of veterinary, agricultural, environmental and industrial importance enables effector proteins to be secreted and attached to the cell surface where they contribute to disease pathogenesis or degrade biopolymers of commercial interest. This project aims to determine the structure and assembly mechanism of this complex secretion nanomachine comprising 15 different proteins using s ....Structural Characterisation of the Type IX Secretion System. The Type IX Secretion System present in diverse bacteria of veterinary, agricultural, environmental and industrial importance enables effector proteins to be secreted and attached to the cell surface where they contribute to disease pathogenesis or degrade biopolymers of commercial interest. This project aims to determine the structure and assembly mechanism of this complex secretion nanomachine comprising 15 different proteins using state of the art microscopy. Knowledge of the structure will greatly enhance our understanding of secretion mechanisms and our ability to both inhibit the system to treat disease in animals or manipulate the system for industrial applications providing future economic and environmental benefits to our nation.Read moreRead less
ARC Centre of Excellence - Structural and Functional Microbial Genomics. The research falls under the National Research Priority Frontier Technologies for Building and Transforming Australian Industries, with the priority goal of frontier technologies. The research has commercial applications, such as the development of novel antimicrobials and vaccines, with potentially enormous impact in the biotechnology area of biomedical health and the primary industries. In addition, the project will use ....ARC Centre of Excellence - Structural and Functional Microbial Genomics. The research falls under the National Research Priority Frontier Technologies for Building and Transforming Australian Industries, with the priority goal of frontier technologies. The research has commercial applications, such as the development of novel antimicrobials and vaccines, with potentially enormous impact in the biotechnology area of biomedical health and the primary industries. In addition, the project will use state-of-the-art technology, including use of synchrotron radiation at the Monash-based Australian Synchrotron facility from 2007.Read moreRead less
Special Research Initiatives - Grant ID: SR0354619
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
Australian Microbial Genomics Research Network. The Australian Microbial Genomics Research Network aims to bring together Australian scientists with complementary expertise in microbial genomics within two ARC Centres, a Ramaciotti Centre and four institutions across three states. This initiative will involve the strategy and planning of the proposed Network.
ARC Centre for Structural & Functional Microbial Genomics. Australian Primary Industry will benefit from a team of experts in microbial genetics, bioinformatics and protein structure and function undertaking integrated studies on microbial genomics and phenomics that are focused on fundamental biological processes and host/pathogen interactions. Whole genome expression and protein profiling will be used to characterise genes whose expression is altered in the infected host and to analyse genes i ....ARC Centre for Structural & Functional Microbial Genomics. Australian Primary Industry will benefit from a team of experts in microbial genetics, bioinformatics and protein structure and function undertaking integrated studies on microbial genomics and phenomics that are focused on fundamental biological processes and host/pathogen interactions. Whole genome expression and protein profiling will be used to characterise genes whose expression is altered in the infected host and to analyse genes involved in the control of key cellular processes. The Centre will also determine the shapes of key molecules and their interactions. Practical outcomes will include new veterinary vaccines and the identification of novel antimicrobial targets.Read moreRead less
Slipping out unnoticed: a new bacterial lipoprotein transport system. Worldwide markets for biotechnology-derived products are projected to grow to at least $50 billion per year for the next 10 years. The cornerstone of biotechnology is the production of proteins. The applicant has discovered a new pathway for protein production in bacteria. The primary objective of this project is to use a diverse array of biochemical and biophysical techniques to understand how this new protein production pl ....Slipping out unnoticed: a new bacterial lipoprotein transport system. Worldwide markets for biotechnology-derived products are projected to grow to at least $50 billion per year for the next 10 years. The cornerstone of biotechnology is the production of proteins. The applicant has discovered a new pathway for protein production in bacteria. The primary objective of this project is to use a diverse array of biochemical and biophysical techniques to understand how this new protein production platform works. We will also assess this new pathway for the production of proteins of interest to the biotechnology sector. This project expects to determine how this system can be exploited for use in the growing Australian bioeconomy.Read moreRead less
The molecular pathogenesis of Equine rhinitis A virus, a major respiratory pathogen of horses. The equine industry in Australia is worth $15 billion a year. Equine respiratory disease costs Victoria, alone, $5-10 million per year. Equine rhinitis A virus is a major cause of acute febrile respiratory disease in horses. This project aims to develop an infectious clone to study the pathogenesis of the disease, and subunit antigens for use as vaccines. These reagents will increase our understand ....The molecular pathogenesis of Equine rhinitis A virus, a major respiratory pathogen of horses. The equine industry in Australia is worth $15 billion a year. Equine respiratory disease costs Victoria, alone, $5-10 million per year. Equine rhinitis A virus is a major cause of acute febrile respiratory disease in horses. This project aims to develop an infectious clone to study the pathogenesis of the disease, and subunit antigens for use as vaccines. These reagents will increase our understanding of the pathogenesis of ERAV and will lead to experimental vaccines which will be tested in horses.Read moreRead less
Designing effective Gram negative bacterial vaccines. There is a need for the development of novel vaccines for use in animals and humans. This project will to address this need by studying the functions of bacterial 'blebs' as potent inducers of the host immune system and by developing these nano-sized particles for use as safe and cost-effective vaccine candidates.